DE2739954A1 - PNEUMATICALLY CONTROLLED VENTILATION DEVICE - Google Patents

Description

Applicant:

VEB Kombinat Medical and Laboratory Technology Leipzig 7o35 Leipzig, iranz-Flemming-Str ,, 43/45

Pneumatically controlled ventilator

The invention relates to a pneumatically controlled ventilator, in which the control a calibrated setting of the breathing rate and the breathing time ratio and in which, in contrast to the separate setting of inspiration time and expiration time, the sizes for the breathing rhythm are to be set independently of each other.

Automatically controlled ventilators are known, their technical gowns pneumatic logic elements and peripheral devices are made up of individual building blocks or assembled parts of known modular systems

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of digital technology exist and with which flow and pressure of the breathing gas can be regulated automatically during inspiration and expiration. The puncture sequence of such controlled Systems is based on controlled or assisted IPP ventilation according to fixed specifications Input variables and according to whether the patient is given a gas up to a certain pressure or a gas measured in terms of volume Amount of breathing gas is supplied. Volume-controlled ventilation systems, however, are often liable Lack of no or only a relatively late compensatory response to altered lung function he follows.

Other ventilation systems, on the other hand, avoid this disadvantage, but they are only intended for use laid out in the hospital. Their versatile and routine use requires a universal constructive and granular binational design of the ventilator. This has a good functionality, but it does is secured with relatively complicated and expensive technical means for various reasons. The problem at hand was attempted to be solved by automatically adjusting the flow and pressure of the breathing gas regulating device has several subordinate control loops. One of the control loops contains a circuit for Flow and pressure control, consisting of a valve assembly

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from a control valve and inspiration-expiration valve and a flow and pressure measuring device, this control circuit serves to regulate the river. Another control circuit contains the circuit for plus and pressure control, a changeover switch, the valve arrangement and the measuring device, this control circuit being used for pressure control » In the proposed embodiment of the II control device it is therefore the case that a flow control is carried out during the inspiration and a pressure control is performed during the expiration will. It seems necessary to point out that with such control devices the limit of the maximum breathing gas flow can be reached even before the end of the inspiration phase, which inevitably means that it will switch to Pressure control would be done. In such a case, the set minute volume of the to be administered Breathing gas cannot be reached.

The exact and safe mode of operation reveals another known solution, in which a closed control circuit can be operated either with air or oxygen. These gases are introduced via connections that are secured by directional valves for the purpose of a continuous bottle change. Both gases are over Directional valves routed, which on the one hand signal-linked via a pressure reducing valve with control blocks of a separate control on the other hand establishes a connection with the patient via a downstream injector circuit,

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The injector is arranged in the circuit so that it receives both fresh air from the atmosphere and oxygen can suck in a breathing bag. In the event of a cough, the patient still has the option of using a pressure relief valve to additionally absorb filtered air from the atmosphere.

The lines carrying gas in the injector circuit are in place directly or indirectly with V / egeventilen in connection, which from the separate control can be operated in the rhythm of the breathing rate and the breathing time ratio. The choice of ventilation type takes place via another directional valve, which acts directly on the control.

The ventilator is also suitable for positive pressure ventilation with end-expiratory positive pressure and allows alternating pressure ventilation and allows the entry of preprogrammed deep breaths. It warns of life threatening conditions like e.g. exceeding or falling below the preselected ventilation pressure, frequency and drive pressure, Apart from the further possibility of switching to an Ivasch control, the device control has suitable ones technical means that are more characteristic according to a selection made by the medical indication Breathing curves regulate the ventilation process. Thus, time-controlled, pressure-controlled, flow-controlled and volume-controlled processes of the known types of ventilation systems are implemented in just one ventilator,

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however, this is intended, among other things, for long-term ventilation and is therefore preferred in intensive care Use.

The aim of the invention is to enable a ventilation device to be used in the stationary independent area, the trota of its small hatred and dimensions with at the same time the most economical Gas consumption the basic functions of a controlled and assisted ventilation guaranteed as IPPB

The invention therefore has the task of developing a ventilator intended for rapid medical aid, which, in analogy to the device control mentioned above, has a closed control circuit, which, however, is strictly is separated from the breathing circuit and, despite a smaller number of its technical shakers, has a breathing gas flow allows gradual adjustment of the oxygen content. The invention is intended to increase the degree of utilization of existing control elements that control the control process secure the setting options described in the area of application.

The object set is achieved according to the invention by one of a pneumatic-logic control subordinate Wegeventilι which is to be operated by hand and a one Injector circuit a separate directional valve that is pneumatically is to be actuated, further through their mutual signal combination and continued to an OR gate and through the

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Formation of superimposed and separable control lines, of which those with the manually controlled directional control valve provided first control path in the one between a pressure reducer and the control as well as the pneumatically controlled Directional control valve and the OR element "existing signal links are connected to the pneumatically controlled Directional control valve provided second control path in between a directional control valve for pressurized oxygen and a adjustable throttle as well as the manually controlled directional valve and the OR element existing signal links and one of which is a third control path from the pneumatically controlled Y / e valve via an adjustable throttle opens into the inspiration line, which in turn is connected to a threshold switch connected to the controller and a further directional control valve linked to this signal with had actuation and a respiratory pressure meter connected downstream of it

Due to the invention, the hitherto relatively expensive Gowns or the reason that can be achieved with a compact controller— functions controlled with a relatively small number of operating elements. In addition, the pneumatically calibrated one Control technology that enables the frequency and the breathing time ratio to be set, in particular the inventive one Bypass control or its superimposed control lines also an optional refreshment of the breathing gas flow

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27399S4

allowed, which is preferably designed for a step-by-step entry of the oxygen proportions of 21 #, approx. 5o # and loo # is. Apart from a safe breath pressure and tidal volume control, this can be done for the patient the most appropriate gas volume can be enriched with medication or humidified

Administration of a drug or moistened Breathing gas can be achieved according to a development of the invention that the control with the pneumatic Controlled directional control valve directly connecting line has a branch to an amplifier, which is essentially consists of two logically switched double diaphragm relays and the one for the Coupling of a nebulizer or humidifier is linked to certain connecting pieces.

The links with the logically switched control are assigned signals in such a way that during an inspiration on the pneumatically controlled V / ege valve and on the expiratory valve an L signal and a 0 signal at the OR gate is applied, whereas during an expiration a reverse signal is given, namely the directional control valve and the expiration valve receive an O signal and the OR gate receives an L signal.

The invention is to be explained in more detail below using an exemplary embodiment. In the associated drawing

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A device scheme was produced that basically uses known elements of the pneumatic control systems Elements such as those contained in the circuit as directional control valve 1, suction valve 2, expiration valve 3 or threshold value switch h and which are sensibly arranged in the circuit complex, control the basic functions of controlled and assisted ventilation and other important ventilation processes As already mentioned, some of them are known per se and need not be described here.

The ventilator on which the invention is based, which is driven either with air or oxygen and in which the effectiveness of these drive gases, which are used at the same time as fuel gas, is influenced by a manually operated directional valve 5, is equipped with directional valves 6 designed for oil-free compressed air and compressed oxygen supply connection; 7, which are connected to the directional control valve 1 on the one hand and to a pressure reducer 9 on the other hand via filters 8. The latter ensures that a constant gas pressure of 1 ″ 4 kp / cm ^{2 is} fed into the controller 26 to which it is connected. Its outgoing pressure line is

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also led to a .'egeventil 13, which is signal-linked to a directional control valve 12 and an OR element 25.
The OR gate 25 is with its second input to the
Control 26 connected so that the with the .. 'egeventil
13 formed control path a part of the control
26 represents ancillary bypass control. Two further control paths belonging to it are initiated via a signal connection between the controller 26 and the ball valve 1, which, starting from this, are passed once via the ball valve 12 and an adjustable throttle 11 into the inspiration line 27 and on to the other an adjustable throttle
Io lead into an injector 15. The injector has a lateral connection to the suction valve 2, the diaphragm chamber of which is signal-linked to the output of the OR element 25 and the spring chamber of which is connected to a suction filter 16 and a pressure relief valve 17.
This and a pressure relief valve 18 are assigned to the inspiration line 27 connected to the injector 15 on the outlet side, which in turn provides a signal connection to the threshold value switch 4 linked to the controller 26 and to a manually operated valve 2o
with switchable breath pressure meter 21 possesses.
The expiratory gas is passed through an expiratory check valve 23, which is connected to the controller 26 with the interposition of a respiratory volumeter 22 and the adjoining expiratory valve 3. Pure the

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In the case of an assisted IPPB, a visual display is provided which is to be actuated by the controller 26. It is also possible to make each controlled breath controllable via the optical display 28. As already stated earlier, allows the bypass control meaningful for rescue purposes stepped change in the oxygen levels in the respiratory gas flow, from 21 fo to about 5o% and loo #. The guarantee of 21 % requires the drive with oil-free compressed air, which is introduced via the directional valve 7. The directional valve 5 is manually switched to the "passage" position and thus triggers a lock (not shown) for the oxygen supply or connection. The directional control valve 12 is in the "no passage" state, the OR element has an inspiratory O signal.

If approx. 50 % oxygen content is required in the nutrient gas, the directional valve 5 must be switched to the "no passage" position. With this switching process, the supply of oxygen via the check valve 6 is initiated, but not its use for the control technology. The compressed air that is still flowing in serves this purpose. With the same position of the directional valve 12 and the inspiratory O signal of the OR element 25, the compressed air and oxygen are mixed according to the mass flow ratio of the injector 15.

In the case of a nutrient gas consisting of loo # oxygen, that is To take injector 15 out of operation. The through inspirational

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The L signal of the OR gate 25 prevented the suction component of the injector 15, which would inevitably result in a considerable reduction in the tidal volume, is through the bypass control, namely by switching on a volume flow via the throttle 11 as a result of the switching position "Passage" of the directional valve 12 relevant compensated Throttle 11 can be corrected.

This bypass control with its three control paths has great advantages, especially when the circuit is reversed, that is to say when the S _au erstoffes in the local gas is reduced; especially when switching back from 100 # oxygen to a gas mixture. Without the bypass control, a risk to the patient cannot be ruled out, and special requirements are placed on the operator which are unreasonable under the conditions of rapid medical help and especially in the event of a disaster.

If the nutrient gas is 100% oxygen, then it should be when it is available Compressed air these are used for the control technology. In this case, the directional control valve 5 remains in the position "no passage". If there is no compressed air for the control process, oxygen can also be used as a drive medium. In In this case, the directional control valve 5 is in the "passage" position to switch.

The device diagram shown in the drawing also includes an amplifier identified by the reference number 14, the to the signal sent from the controller 26 to the directional valve 1

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management is connected. It consists of two logically connected Double membrane relay and is connected to a connecting piece 19. A nebuliser (not shown) can be connected to this operated according to the Venturi principle will.

In the exemplary embodiment, individual switching groups are still included, which refer to detailed solutions of the GDR WP 122 o29. For example the measures for volume control and the the binary for assisted or controlled ventilation. Due to their popularity, there is no need for them Executions.

The situation is different with the following measure for a locking mechanism which is intended for the connection of oxygen and / or compressed air. This is switched in relation to the position of the directional control valve 5 and by this so that in the case of compressed air operation 21 ° h O ₂ and the "passage" position, the oxygen supply via the directional valve 6 is blocked and, in the "no passage" position, both the oxygen supply and the compressed air supply are blocked takes place via the directional valves 6; 7. A graphic representation of the locking mechanism was dispensed with here, since the possibilities of its coupling with the directional control valve 5 by means of known switching linkages can be varied.

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Claims (4)

2733954 claims: 1.) Pneumatically controlled ventilator with a compressed air connection and a compressed oxygen connection is provided, which via Iiichtungventile and filter with are connected to a manual switch, which connects depending on the type of compressed gas supply to a pressure reducer connected to a controller and a connection to a pneumatically controllable one Manufactures directional valve that has access to an injector via a throttle, which on the one hand an outlet valve with control and atmosphere connection, on the other hand to a patient line intended for inspiration with overpressure and underpressure protection and an expiratory check valve with patient connection and in the flow direction of the exhalation connected to this a respiratory volumeter as well as a with the Has control signal-linked expiratory valve, characterized by one of the control (26) secondary Directional valve (13), which is to be operated by ^ and and one of the injector circuit (2, lo, 15) subordinate Directional valve (12), which is to be "actuated pneumatically, continues through its mutual and to an OR element (25) continued signal linkage, and through the formation of superimposed and separable control paths, of which the first control path provided with the directional valve (13) into the one between the pressure reducer (9) and «09827/0589 ORIGINAL INiSPFCTED Control (26) as well as directional control valve (12) and OR element (25) "existing signal links that are connected to the V / egeventil (12) provided second control path between the directional control valve (l) and throttle (lo) and Directional control valve (13) and OR element (25) existing signal links is switched and one of which is from V / ege valve (12) opens into the inspiration line via a throttle (II), which in turn have a threshold switch (4) connected to the controller (26) and one with this the signal-linked directional valve (2o) is connected to the breathing pressure meter (21), 2, pneumatically controlled ventilator according to claim 1, characterized in that the one directly connecting the control (26) to the pneumatically controlled V / ege valve (1) Line has a branch to an amplifier (14), which essentially consists of logically connected There is a double membrane relay and a signal line with one for the coupling of a peripheral Device specific connection piece (19) is linked. 3. Pneumatically controlled ventilator according to claim 1 and 2, characterized in that the links with the logically switched control in such a way with signals have been proven that during inspiration on the pneumatically controlled directional valve (l) and on the Ex- - 15 809827/0569 The breathing valve (3) has an L signal and the OR element (25) has an O signal, on the other hand during expiration the signaling is reversed. 4. Pneumatically controlled ventilator according to claim 3, characterized in that in the operating mode loo Io oxygen through the occupancy of the OR element (25) with an L signal, the connection of the suction side of the injector (15) to the atmosphere through the suction valve (2 ) is blocked. β ρ ο ρ 0 7 / ο ι- β 9